/*
 * Licensed to the Apache Software Foundation (ASF) under one
 * or more contributor license agreements.  See the NOTICE file
 * distributed with this work for additional information
 * regarding copyright ownership.  The ASF licenses this file
 * to you under the Apache License, Version 2.0 (the
 * "License"); you may not use this file except in compliance
 * with the License.  You may obtain a copy of the License at
 *
 *     http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */
package org.apache.cassandra.cql3.functions;

import java.math.BigDecimal;
import java.math.BigInteger;
import java.math.RoundingMode;
import java.nio.ByteBuffer;
import java.util.List;

import org.apache.cassandra.db.marshal.*;
import org.apache.cassandra.exceptions.InvalidRequestException;
import org.apache.cassandra.transport.ProtocolVersion;

/**
 * Factory methods for aggregate functions.
 */
public abstract class AggregateFcts
{
    public static void addFunctionsTo(NativeFunctions functions)
    {
        functions.add(countRowsFunction);

        // sum for primitives
        functions.add(sumFunctionForByte);
        functions.add(sumFunctionForShort);
        functions.add(sumFunctionForInt32);
        functions.add(sumFunctionForLong);
        functions.add(sumFunctionForFloat);
        functions.add(sumFunctionForDouble);
        functions.add(sumFunctionForDecimal);
        functions.add(sumFunctionForVarint);
        functions.add(sumFunctionForCounter);

        // avg for primitives
        functions.add(avgFunctionForByte);
        functions.add(avgFunctionForShort);
        functions.add(avgFunctionForInt32);
        functions.add(avgFunctionForLong);
        functions.add(avgFunctionForFloat);
        functions.add(avgFunctionForDouble);
        functions.add(avgFunctionForDecimal);
        functions.add(avgFunctionForVarint);
        functions.add(avgFunctionForCounter);

        // count for all types
        functions.add(makeCountFunction(BytesType.instance));

        // max for all types
        functions.add(new FunctionFactory("max", FunctionParameter.anyType(true))
        {
            @Override
            protected NativeFunction doGetOrCreateFunction(List<AbstractType<?>> argTypes, AbstractType<?> receiverType)
            {
                AbstractType<?> type = argTypes.get(0);
                return type.isCounter() ? maxFunctionForCounter : makeMaxFunction(type);
            }
        });

        // min for all types
        functions.add(new FunctionFactory("min", FunctionParameter.anyType(true))
        {
            @Override
            protected NativeFunction doGetOrCreateFunction(List<AbstractType<?>> argTypes, AbstractType<?> receiverType)
            {
                AbstractType<?> type = argTypes.get(0);
                return type.isCounter() ? minFunctionForCounter : makeMinFunction(type);
            }
        });
    }

    /**
     * The function used to count the number of rows of a result set. This function is called when COUNT(*) or COUNT(1)
     * is specified.
     */
    public static final CountRowsFunction countRowsFunction = new CountRowsFunction(false);

    public static class CountRowsFunction extends NativeAggregateFunction
    {
        private CountRowsFunction(boolean useLegacyName)
        {
            super(useLegacyName ? "countRows" : "count_rows", LongType.instance);
        }

        @Override
        public Aggregate newAggregate()
        {
            return new Aggregate()
            {
                private long count;

                public void reset()
                {
                    count = 0;
                }

                public ByteBuffer compute(ProtocolVersion protocolVersion)
                {
                    return LongType.instance.decompose(count);
                }

                @Override
                public void addInput(Arguments arguments)
                {
                    count++;
                }
            };
        }

        @Override
        public String columnName(List<String> columnNames)
        {
            return "count";
        }

        @Override
        public NativeFunction withLegacyName()
        {
            return new CountRowsFunction(true);
        }
    }

    /**
     * The SUM function for decimal values.
     */
    public static final NativeAggregateFunction sumFunctionForDecimal =
            new NativeAggregateFunction("sum", DecimalType.instance, DecimalType.instance)
            {
                @Override
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private BigDecimal sum = BigDecimal.ZERO;

                        public void reset()
                        {
                            sum = BigDecimal.ZERO;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return ((DecimalType) returnType()).decompose(sum);
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            BigDecimal number = arguments.get(0);

                            if (number == null)
                                return;

                            sum = sum.add(number);
                        }
                    };
                }
            };

    /**
     * The AVG function for decimal values.
     * </p>
     * The average of an empty value set returns zero.
     */
    public static final NativeAggregateFunction avgFunctionForDecimal =
            new NativeAggregateFunction("avg", DecimalType.instance, DecimalType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private BigDecimal avg = BigDecimal.ZERO;

                        private int count;

                        public void reset()
                        {
                            count = 0;
                            avg = BigDecimal.ZERO;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return DecimalType.instance.decompose(avg);
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            BigDecimal number = arguments.get(0);

                            if (number == null)
                                return;

                            count++;

                            // avg = avg + (value - sum) / count.
                            avg = avg.add(number.subtract(avg).divide(BigDecimal.valueOf(count), RoundingMode.HALF_EVEN));
                        }
                    };
                }
            };


    /**
     * The SUM function for varint values.
     */
    public static final NativeAggregateFunction sumFunctionForVarint =
            new NativeAggregateFunction("sum", IntegerType.instance, IntegerType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private BigInteger sum = BigInteger.ZERO;

                        public void reset()
                        {
                            sum = BigInteger.ZERO;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return ((IntegerType) returnType()).decompose(sum);
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            BigInteger number = arguments.get(0);

                            if (number == null)
                                return;

                            sum = sum.add(number);
                        }
                    };
                }
            };

    /**
     * The AVG function for varint values.
     * </p>
     * The average of an empty value set returns zero. The returned value is of the same type as the input values, 
     * so the returned average won't have a decimal part.
     */
    public static final NativeAggregateFunction avgFunctionForVarint =
            new NativeAggregateFunction("avg", IntegerType.instance, IntegerType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private BigInteger sum = BigInteger.ZERO;

                        private int count;

                        public void reset()
                        {
                            count = 0;
                            sum = BigInteger.ZERO;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            if (count == 0)
                                return IntegerType.instance.decompose(BigInteger.ZERO);

                            return IntegerType.instance.decompose(sum.divide(BigInteger.valueOf(count)));
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            BigInteger number = arguments.get(0);

                            if (number == null)
                                return;

                            count++;
                            sum = sum.add(number);
                        }
                    };
                }
            };

    /**
     * The SUM function for byte values (tinyint).
     * </p>
     * The returned value is of the same type as the input values, so there is a risk of overflow if the sum of the
     * values exceeds the maximum value that the type can represent.
     */
    public static final NativeAggregateFunction sumFunctionForByte =
            new NativeAggregateFunction("sum", ByteType.instance, ByteType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private byte sum;

                        public void reset()
                        {
                            sum = 0;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return ((ByteType) returnType()).decompose(sum);
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            Number number = arguments.get(0);

                            if (number == null)
                                return;

                            sum += number.byteValue();
                        }
                    };
                }
            };

    /**
     * AVG function for byte values (tinyint).
     * </p>
     * The average of an empty value set returns zero. The returned value is of the same type as the input values, 
     * so the returned average won't have a decimal part.
     */
    public static final NativeAggregateFunction avgFunctionForByte =
            new NativeAggregateFunction("avg", ByteType.instance, ByteType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new AvgAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion) throws InvalidRequestException
                        {
                            return ByteType.instance.decompose((byte) computeInternal());
                        }
                    };
                }
            };

    /**
     * The SUM function for short values (smallint).
     * </p>
     * The returned value is of the same type as the input values, so there is a risk of overflow if the sum of the
     * values exceeds the maximum value that the type can represent.
     */
    public static final NativeAggregateFunction sumFunctionForShort =
            new NativeAggregateFunction("sum", ShortType.instance, ShortType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private short sum;

                        public void reset()
                        {
                            sum = 0;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return ((ShortType) returnType()).decompose(sum);
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            Number number = arguments.get(0);

                            if (number == null)
                                return;

                            sum += number.shortValue();
                        }
                    };
                }
            };

    /**
     * AVG function for for short values (smallint).
     * </p>
     * The average of an empty value set returns zero. The returned value is of the same type as the input values, 
     * so the returned average won't have a decimal part.
     */
    public static final NativeAggregateFunction avgFunctionForShort =
            new NativeAggregateFunction("avg", ShortType.instance, ShortType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new AvgAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return ShortType.instance.decompose((short) computeInternal());
                        }
                    };
                }
            };

    /**
     * The SUM function for int32 values.
     * </p>
     * The returned value is of the same type as the input values, so there is a risk of overflow if the sum of the
     * values exceeds the maximum value that the type can represent.
     */
    public static final NativeAggregateFunction sumFunctionForInt32 =
            new NativeAggregateFunction("sum", Int32Type.instance, Int32Type.instance)
            {
                public Aggregate newAggregate()
                {
                    return new Aggregate()
                    {
                        private int sum;

                        public void reset()
                        {
                            sum = 0;
                        }

                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return ((Int32Type) returnType()).decompose(sum);
                        }

                        @Override
                        public void addInput(Arguments arguments)
                        {
                            Number number = arguments.get(0);

                            if (number == null)
                                return;

                            sum += number.intValue();
                        }
                    };
                }
            };

    /**
     * AVG function for int32 values.
     * </p>
     * The average of an empty value set returns zero. The returned value is of the same type as the input values, 
     * so the returned average won't have a decimal part.
     */
    public static final NativeAggregateFunction avgFunctionForInt32 =
            new NativeAggregateFunction("avg", Int32Type.instance, Int32Type.instance)
            {
                public Aggregate newAggregate()
                {
                    return new AvgAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return Int32Type.instance.decompose((int) computeInternal());
                        }
                    };
                }
            };

    /**
     * The SUM function for long values.
     * </p>
     * The returned value is of the same type as the input values, so there is a risk of overflow if the sum of the
     * values exceeds the maximum value that the type can represent.
     */
    public static final NativeAggregateFunction sumFunctionForLong =
            new NativeAggregateFunction("sum", LongType.instance, LongType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new LongSumAggregate();
                }
            };

    /**
     * AVG function for long values.
     * </p>
     * The average of an empty value set returns zero. The returned value is of the same type as the input values, 
     * so the returned average won't have a decimal part.
     */
    public static final NativeAggregateFunction avgFunctionForLong =
            new NativeAggregateFunction("avg", LongType.instance, LongType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new AvgAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion)
                        {
                            return LongType.instance.decompose(computeInternal());
                        }
                    };
                }
            };

    /**
     * The SUM function for float values.
     * </p>
     * The returned value is of the same type as the input values, so there is a risk of overflow if the sum of the
     * values exceeds the maximum value that the type can represent.
     */
    public static final NativeAggregateFunction sumFunctionForFloat =
            new NativeAggregateFunction("sum", FloatType.instance, FloatType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new FloatSumAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion) throws InvalidRequestException
                        {
                            return FloatType.instance.decompose((float) computeInternal());
                        }
                    };
                }
            };

    /**
     * AVG function for float values.
     * </p>
     * The average of an empty value set returns zero.
     */
    public static final NativeAggregateFunction avgFunctionForFloat =
            new NativeAggregateFunction("avg", FloatType.instance, FloatType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new FloatAvgAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion) throws InvalidRequestException
                        {
                            return FloatType.instance.decompose((float) computeInternal());
                        }
                    };
                }
            };

    /**
     * The SUM function for double values.
     * </p>
     * The returned value is of the same type as the input values, so there is a risk of overflow if the sum of the
     * values exceeds the maximum value that the type can represent.
     */
    public static final NativeAggregateFunction sumFunctionForDouble =
            new NativeAggregateFunction("sum", DoubleType.instance, DoubleType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new FloatSumAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion) throws InvalidRequestException
                        {
                            return DoubleType.instance.decompose(computeInternal());
                        }
                    };
                }
            };

    /**
     * Sum aggregate function for floating point numbers, using double arithmetics and
     * Kahan's algorithm to improve result precision.
     */
    private static abstract class FloatSumAggregate implements AggregateFunction.Aggregate
    {
        private double sum;
        private double compensation;
        private double simpleSum;

        public void reset()
        {
            sum = 0;
            compensation = 0;
            simpleSum = 0;
        }

        @Override
        public void addInput(Arguments arguments)
        {
            Number number = arguments.get(0);

            if (number == null)
                return;

            double d = number.doubleValue();

            simpleSum += d;
            double tmp = d - compensation;
            double rounded = sum + tmp;
            compensation = (rounded - sum) - tmp;
            sum = rounded;
        }

        public double computeInternal()
        {
            // correctly compute final sum if it's NaN from consequently
            // adding same-signed infinite values.
            double tmp = sum + compensation;

            if (Double.isNaN(tmp) && Double.isInfinite(simpleSum))
                return simpleSum;
            else
                return tmp;
        }
    }

    /**
     * Average aggregate for floating point umbers, using double arithmetics and Kahan's algorithm
     * to calculate sum by default, switching to BigDecimal on sum overflow. Resulting number is
     * converted to corresponding representation by concrete implementations.
     */
    private static abstract class FloatAvgAggregate implements AggregateFunction.Aggregate
    {
        private double sum;
        private double compensation;
        private double simpleSum;

        private int count;

        private BigDecimal bigSum = null;
        private boolean overflow = false;

        public void reset()
        {
            sum = 0;
            compensation = 0;
            simpleSum = 0;

            count = 0;
            bigSum = null;
            overflow = false;
        }

        public double computeInternal()
        {
            if (count == 0)
                return 0d;

            if (overflow)
            {
                return bigSum.divide(BigDecimal.valueOf(count), RoundingMode.HALF_EVEN).doubleValue();
            }
            else
            {
                // correctly compute final sum if it's NaN from consequently
                // adding same-signed infinite values.
                double tmp = sum + compensation;
                if (Double.isNaN(tmp) && Double.isInfinite(simpleSum))
                    sum = simpleSum;
                else
                    sum = tmp;

                return sum / count;
            }
        }

        @Override
        public void addInput(Arguments arguments)
        {
            Number number = arguments.get(0);

            if (number == null)
                return;

            count++;

            double d = number.doubleValue();

            if (overflow)
            {
                bigSum = bigSum.add(BigDecimal.valueOf(d));
            }
            else
            {
                simpleSum += d;
                double prev = sum;
                double tmp = d - compensation;
                double rounded = sum + tmp;
                compensation = (rounded - sum) - tmp;
                sum = rounded;

                if (Double.isInfinite(sum) && !Double.isInfinite(d))
                {
                    overflow = true;
                    bigSum = BigDecimal.valueOf(prev).add(BigDecimal.valueOf(d));
                }
            }
        }
    }

    /**
     * AVG function for double values.
     * </p>
     * The average of an empty value set returns zero.
     */
    public static final NativeAggregateFunction avgFunctionForDouble =
            new NativeAggregateFunction("avg", DoubleType.instance, DoubleType.instance)
            {
                public Aggregate newAggregate()
                {
                    return new FloatAvgAggregate()
                    {
                        public ByteBuffer compute(ProtocolVersion protocolVersion) throws InvalidRequestException
                        {
                            return DoubleType.instance.decompose(computeInternal());
                        }
                    };
                }
            };

    /**
     * The SUM function for counter column values.
     */
    public static final NativeAggregateFunction sumFunctionForCounter =
    new NativeAggregateFunction("sum", CounterColumnType.instance, CounterColumnType.instance)
    {
        public Aggregate newAggregate()
        {
            return new LongSumAggregate();
        }
    };

    /**
     * AVG function for counter column values.
     */
    public static final NativeAggregateFunction avgFunctionForCounter =
    new NativeAggregateFunction("avg", CounterColumnType.instance, CounterColumnType.instance)
    {
        public Aggregate newAggregate()
        {
            return new AvgAggregate()
            {
                public ByteBuffer compute(ProtocolVersion protocolVersion) throws InvalidRequestException
                {
                    return CounterColumnType.instance.decompose(computeInternal());
                }
            };
        }
    };

    /**
     * The MIN function for counter column values.
     */
    public static final NativeAggregateFunction minFunctionForCounter =
    new NativeAggregateFunction("min", CounterColumnType.instance, CounterColumnType.instance)
    {
        public Aggregate newAggregate()
        {
            return new Aggregate()
            {
                private Long min;

                public void reset()
                {
                    min = null;
                }

                public ByteBuffer compute(ProtocolVersion protocolVersion)
                {
                    return min != null ? LongType.instance.decompose(min) : null;
                }

                @Override
                public void addInput(Arguments arguments)
                {
                    Number number = arguments.get(0);

                    if (number == null)
                        return;

                    long lval = number.longValue();

                    if (min == null || lval < min)
                        min = lval;
                }
            };
        }
    };

    /**
     * MAX function for counter column values.
     */
    public static final NativeAggregateFunction maxFunctionForCounter =
    new NativeAggregateFunction("max", CounterColumnType.instance, CounterColumnType.instance)
    {
        public Aggregate newAggregate()
        {
            return new Aggregate()
            {
                private Long max;

                public void reset()
                {
                    max = null;
                }

                public ByteBuffer compute(ProtocolVersion protocolVersion)
                {
                    return max != null ? LongType.instance.decompose(max) : null;
                }

                @Override
                public void addInput(Arguments arguments)
                {
                    Number number = arguments.get(0);

                    if (number == null)
                        return;

                    long lval = number.longValue();

                    if (max == null || lval > max)
                        max = lval;
                }
            };
        }
    };

    /**
     * Creates a MAX function for the specified type.
     *
     * @param inputType the function input and output type
     * @return a MAX function for the specified type.
     */
    public static NativeAggregateFunction makeMaxFunction(final AbstractType<?> inputType)
    {
        return new NativeAggregateFunction("max", inputType, inputType)
        {
            @Override
            public Arguments newArguments(ProtocolVersion version)
            {
                return FunctionArguments.newNoopInstance(version, 1);
            }

            @Override
            public Aggregate newAggregate()
            {
                return new Aggregate()
                {
                    private ByteBuffer max;

                    public void reset()
                    {
                        max = null;
                    }

                    public ByteBuffer compute(ProtocolVersion protocolVersion)
                    {
                        return max;
                    }

                    @Override
                    public void addInput(Arguments arguments)
                    {
                        ByteBuffer value = arguments.get(0);

                        if (value == null)
                            return;

                        if (max == null || returnType().compare(max, value) < 0)
                            max = value;
                    }
                };
            }
        };
    }

    /**
     * Creates a MIN function for the specified type.
     *
     * @param inputType the function input and output type
     * @return a MIN function for the specified type.
     */
    public static NativeAggregateFunction makeMinFunction(final AbstractType<?> inputType)
    {
        return new NativeAggregateFunction("min", inputType, inputType)
        {
            @Override
            public Arguments newArguments(ProtocolVersion version)
            {
                return FunctionArguments.newNoopInstance(version, 1);
            }

            @Override
            public Aggregate newAggregate()
            {
                return new Aggregate()
                {
                    private ByteBuffer min;

                    public void reset()
                    {
                        min = null;
                    }

                    public ByteBuffer compute(ProtocolVersion protocolVersion)
                    {
                        return min;
                    }

                    @Override
                    public void addInput(Arguments arguments)
                    {
                        ByteBuffer value = arguments.get(0);

                        if (value == null)
                            return;

                        if (min == null || returnType().compare(min, value) > 0)
                            min = value;
                    }
                };
            }
        };
    }

    /**
     * Creates a COUNT function for the specified type.
     *
     * @param inputType the function input type
     * @return a COUNT function for the specified type.
     */
    public static NativeAggregateFunction makeCountFunction(AbstractType<?> inputType)
    {
        return new NativeAggregateFunction("count", LongType.instance, inputType)
        {
            @Override
            public Arguments newArguments(ProtocolVersion version)
            {
                return FunctionArguments.newNoopInstance(version, 1);
            }

            @Override
            public Aggregate newAggregate()
            {
                return new Aggregate()
                {
                    private long count;

                    public void reset()
                    {
                        count = 0;
                    }

                    public ByteBuffer compute(ProtocolVersion protocolVersion)
                    {
                        return ((LongType) returnType()).decompose(count);
                    }

                    @Override
                    public void addInput(Arguments arguments)
                    {
                        if (arguments.get(0) == null)
                            return;

                        count++;
                    }
                };
            }
        };
    }

    private static class LongSumAggregate implements AggregateFunction.Aggregate
    {
        private long sum;

        public void reset()
        {
            sum = 0;
        }

        public ByteBuffer compute(ProtocolVersion protocolVersion)
        {
            return LongType.instance.decompose(sum);
        }

        @Override
        public void addInput(Arguments arguments)
        {
            Number number = arguments.get(0);

            if (number == null)
                return;

            sum += number.longValue();
        }
    }

    /**
     * Average aggregate class, collecting the sum using long arithmetics, falling back
     * to BigInteger on long overflow. Resulting number is converted to corresponding
     * representation by concrete implementations.
     */
    private static abstract class AvgAggregate implements AggregateFunction.Aggregate
    {
        private long sum;
        private int count;
        private BigInteger bigSum = null;
        private boolean overflow = false;

        public void reset()
        {
            count = 0;
            sum = 0L;
            overflow = false;
            bigSum = null;
        }

        long computeInternal()
        {
            if (overflow)
            {
                return bigSum.divide(BigInteger.valueOf(count)).longValue();
            }
            else
            {
                return count == 0 ? 0 : (sum / count);
            }
        }

        @Override
        public void addInput(Arguments arguments)
        {
            Number number = arguments.get(0);

            if (number == null)
                return;

            count++;
            long l = number.longValue();

            if (overflow)
            {
                bigSum = bigSum.add(BigInteger.valueOf(l));
            }
            else
            {
                long prev = sum;
                sum += l;

                if (((prev ^ sum) & (l ^ sum)) < 0)
                {
                    overflow = true;
                    bigSum = BigInteger.valueOf(prev).add(BigInteger.valueOf(l));
                }
            }
        }
    }
}
